axmol/core/renderer/backend/opengl/ProgramGL.cpp

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/****************************************************************************
Copyright (c) 2018-2019 Xiamen Yaji Software Co., Ltd.
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Copyright (c) 2020 C4games Ltd.
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https://axmolengine.github.io/
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Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
****************************************************************************/
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#include "ProgramGL.h"
#include "ShaderModuleGL.h"
#include "renderer/backend/Types.h"
#include "renderer/backend/opengl/MacrosGL.h"
#include "base/Director.h"
#include "base/EventDispatcher.h"
#include "base/EventType.h"
#include "base/axstd.h"
#include "yasio/byte_buffer.hpp"
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#include "renderer/backend/opengl/UtilsGL.h"
#include "OpenGLState.h"
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NS_AX_BACKEND_BEGIN
ProgramGL::ProgramGL(std::string_view vertexShader, std::string_view fragmentShader)
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: Program(vertexShader, fragmentShader)
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{
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_vertexShaderModule = static_cast<ShaderModuleGL*>(ShaderCache::newVertexShaderModule(_vertexShader));
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_fragmentShaderModule = static_cast<ShaderModuleGL*>(ShaderCache::newFragmentShaderModule(_fragmentShader));
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AX_SAFE_RETAIN(_vertexShaderModule);
AX_SAFE_RETAIN(_fragmentShaderModule);
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compileProgram();
computeUniformInfos();
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#if AX_ENABLE_CACHE_TEXTURE_DATA
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for (const auto& uniform : _activeUniformInfos)
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{
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auto location = uniform.second.location;
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_originalUniformLocations[uniform.first] = location;
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_mapToCurrentActiveLocation[location] = location;
_mapToOriginalLocation[location] = location;
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}
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_backToForegroundListener =
EventListenerCustom::create(EVENT_RENDERER_RECREATED, [this](EventCustom*) { this->reloadProgram(); });
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Director::getInstance()->getEventDispatcher()->addEventListenerWithFixedPriority(_backToForegroundListener, -1);
#endif
setBuiltinLocations();
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}
ProgramGL::~ProgramGL()
{
clearUniformBuffers();
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AX_SAFE_RELEASE(_vertexShaderModule);
AX_SAFE_RELEASE(_fragmentShaderModule);
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if (_program)
glDeleteProgram(_program);
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#if AX_ENABLE_CACHE_TEXTURE_DATA
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Director::getInstance()->getEventDispatcher()->removeEventListener(_backToForegroundListener);
#endif
}
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#if AX_ENABLE_CACHE_TEXTURE_DATA
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void ProgramGL::reloadProgram()
{
_activeUniformInfos.clear();
_mapToCurrentActiveLocation.clear();
_mapToOriginalLocation.clear();
static_cast<ShaderModuleGL*>(_vertexShaderModule)->compileShader(backend::ShaderStage::VERTEX, _vertexShader);
static_cast<ShaderModuleGL*>(_fragmentShaderModule)->compileShader(backend::ShaderStage::FRAGMENT, _fragmentShader);
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compileProgram();
computeUniformInfos();
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for (const auto& uniform : _activeUniformInfos)
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{
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auto location = _originalUniformLocations[uniform.first];
_mapToCurrentActiveLocation[location] = uniform.second.location;
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_mapToOriginalLocation[uniform.second.location] = location;
}
}
#endif
void ProgramGL::compileProgram()
{
if (_vertexShaderModule == nullptr || _fragmentShaderModule == nullptr)
return;
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auto vertShader = _vertexShaderModule->getShader();
auto fragShader = _fragmentShaderModule->getShader();
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assert(vertShader != 0 && fragShader != 0);
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if (vertShader == 0 || fragShader == 0)
return;
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_program = glCreateProgram();
if (!_program)
return;
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glAttachShader(_program, vertShader);
glAttachShader(_program, fragShader);
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glLinkProgram(_program);
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GLint status = 0;
glGetProgramiv(_program, GL_LINK_STATUS, &status);
if (GL_FALSE == status)
{
GLint errorInfoLen = 0;
glGetProgramiv(_program, GL_INFO_LOG_LENGTH, &errorInfoLen);
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if (errorInfoLen > 1)
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{
auto errorInfo = axstd::make_unique_for_overwrite<char[]>(static_cast<size_t>(errorInfoLen));
glGetProgramInfoLog(_program, errorInfoLen, NULL, errorInfo.get());
log("cocos2d: ERROR: %s: failed to link program: %s ", __FUNCTION__, errorInfo.get());
}
else
log("cocos2d: ERROR: %s: failed to link program ", __FUNCTION__);
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glDeleteProgram(_program);
_program = 0;
}
}
void ProgramGL::setBuiltinLocations()
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{
std::fill(_builtinAttributeLocation, _builtinAttributeLocation + ATTRIBUTE_MAX, -1);
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// std::fill(_builtinUniformLocation, _builtinUniformLocation + UNIFORM_MAX, -1);
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/// a_position
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auto location = glGetAttribLocation(_program, ATTRIBUTE_NAME_POSITION.data());
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_builtinAttributeLocation[Attribute::POSITION] = location;
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/// a_color
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location = glGetAttribLocation(_program, ATTRIBUTE_NAME_COLOR.data());
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_builtinAttributeLocation[Attribute::COLOR] = location;
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/// a_texCoord
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location = glGetAttribLocation(_program, ATTRIBUTE_NAME_TEXCOORD.data());
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_builtinAttributeLocation[Attribute::TEXCOORD] = location;
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// a_normal
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location = glGetAttribLocation(_program, ATTRIBUTE_NAME_NORMAL.data());
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_builtinAttributeLocation[Attribute::NORMAL] = location;
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/// u_MVPMatrix
auto uloc = getUniformLocation(UNIFORM_NAME_MVP_MATRIX);
_builtinUniformLocation[Uniform::MVP_MATRIX].location[0] = uloc.location[0];
_builtinUniformLocation[Uniform::MVP_MATRIX].location[1] = uloc.location[1];
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/// u_textColor
uloc = getUniformLocation(UNIFORM_NAME_TEXT_COLOR);
_builtinUniformLocation[Uniform::TEXT_COLOR].location[0] = uloc.location[0];
_builtinUniformLocation[Uniform::TEXT_COLOR].location[1] = uloc.location[1];
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/// u_effectColor
uloc = getUniformLocation(UNIFORM_NAME_EFFECT_COLOR);
_builtinUniformLocation[Uniform::EFFECT_COLOR].location[0] = uloc.location[0];
_builtinUniformLocation[Uniform::EFFECT_COLOR].location[1] = uloc.location[1];
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/// u_effectType
uloc = getUniformLocation(UNIFORM_NAME_EFFECT_TYPE);
_builtinUniformLocation[Uniform::EFFECT_TYPE].location[0] = uloc.location[0];
_builtinUniformLocation[Uniform::EFFECT_TYPE].location[1] = uloc.location[1];
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/// u_tex0
uloc = getUniformLocation(UNIFORM_NAME_TEXTURE);
_builtinUniformLocation[Uniform::TEXTURE].location[0] = uloc.location[0];
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/// u_tex1
uloc = getUniformLocation(UNIFORM_NAME_TEXTURE1);
_builtinUniformLocation[Uniform::TEXTURE1].location[0] = uloc.location[0];
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}
bool ProgramGL::getAttributeLocation(std::string_view attributeName, unsigned int& location) const
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{
GLint loc = glGetAttribLocation(_program, attributeName.data());
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if (-1 == loc)
{
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AXLOG("axmol: %s: can not find vertex attribute of %s", __FUNCTION__, attributeName.data());
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return false;
}
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location = GLuint(loc);
return true;
}
const hlookup::string_map<AttributeBindInfo>& ProgramGL::getActiveAttributes() const
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{
if (!_program || !_activeAttribs.empty())
return _activeAttribs;
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GLint numOfActiveAttributes = 0;
glGetProgramiv(_program, GL_ACTIVE_ATTRIBUTES, &numOfActiveAttributes);
if (numOfActiveAttributes <= 0)
return _activeAttribs;
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_activeAttribs.reserve(numOfActiveAttributes);
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int MAX_ATTRIBUTE_NAME_LENGTH = 255;
auto attrName = axstd::make_unique_for_overwrite<char[]>(MAX_ATTRIBUTE_NAME_LENGTH + 1);
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GLint attrNameLen = 0;
GLenum attrType;
GLint attrSize;
backend::AttributeBindInfo info;
for (int i = 0; i < numOfActiveAttributes; i++)
{
glGetActiveAttrib(_program, i, MAX_ATTRIBUTE_NAME_LENGTH, &attrNameLen, &attrSize, &attrType, attrName.get());
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CHECK_GL_ERROR_DEBUG();
info.attributeName = std::string(attrName.get(), attrName.get() + attrNameLen);
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info.location = glGetAttribLocation(_program, info.attributeName.c_str());
info.type = attrType;
info.size = UtilsGL::getGLDataTypeSize(attrType) * attrSize;
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CHECK_GL_ERROR_DEBUG();
_activeAttribs[info.attributeName] = info;
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}
return _activeAttribs;
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}
void ProgramGL::computeUniformInfos()
{
if (!_program)
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return;
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_totalBufferSize = 0;
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_maxLocation = -1;
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_activeUniformInfos.clear();
yasio::basic_byte_buffer<GLchar> buffer; // buffer for name
// OpenGL UBO: uloc[0]: block_index, uloc[1]: offset in block
axstd::pod_vector<GLint> uniformOffsets, uniformIndices;
std::map<GLuint, std::pair<int, int>> uniformIndexMap;
auto gpuDevice = Device::getInstance();
/* Query uniform blocks */
clearUniformBuffers();
// GLint numAttrs{0};
// glGetProgramiv(_program, GL_ACTIVE_ATTRIBUTES, &numAttrs); // works
GLint numblocks{0};
glGetProgramiv(_program, GL_ACTIVE_UNIFORM_BLOCKS, &numblocks);
for (int blockIndex = 0; blockIndex < numblocks; ++blockIndex)
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{
GLint blockSize{0};
glGetActiveUniformBlockiv(_program, blockIndex, GL_UNIFORM_BLOCK_DATA_SIZE, &blockSize);
CHECK_GL_ERROR_DEBUG();
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assert(blockSize > 0); // empty block not allow by GLSL/ESSL
GLint memberCount{0};
glGetActiveUniformBlockiv(_program, blockIndex, GL_UNIFORM_BLOCK_ACTIVE_UNIFORMS, &memberCount);
assert(memberCount > 0);
// buffer.resize_fit(MAX_UNIFORM_NAME_LENGTH + 1);
// GLsizei length{0};
// glGetActiveUniformBlockName(_program, blockIndex, buffer.size(), &length, buffer.data());
//
// ax::print("### ub: %s", buffer.data());
uniformIndices.resize(memberCount);
glGetActiveUniformBlockiv(_program, blockIndex, GL_UNIFORM_BLOCK_ACTIVE_UNIFORM_INDICES, uniformIndices.data());
uniformOffsets.resize(memberCount);
glGetActiveUniformsiv(_program, memberCount, reinterpret_cast<const GLuint*>(uniformIndices.data()),
GL_UNIFORM_OFFSET, uniformOffsets.data());
// set bindingIndex at CPU
glUniformBlockBinding(_program, blockIndex, blockIndex);
// create uniform buffer object
auto& desc = _uniformBuffers.emplace_back(
static_cast<BufferGL*>(gpuDevice->newBuffer(blockSize, BufferType::UNIFORM, BufferUsage::DYNAMIC)),
static_cast<int>(_totalBufferSize), blockSize);
desc._ubo->updateData(nullptr, blockSize); // ubo data can be nullptr
CHECK_GL_ERROR_DEBUG();
for (GLint i = 0; i < memberCount; ++i)
uniformIndexMap.emplace(uniformIndices[i], std::make_pair(static_cast<int>(desc._location),
static_cast<int>(uniformOffsets[i])));
// increase _totalBufferSize
_totalBufferSize += blockSize;
}
/*
* construct _activeUniformInfos: uniformName-->UniformInfo
*/
UniformInfo uniform;
GLint nameLen = 0;
GLint numOfUniforms = 0;
glGetProgramiv(_program, GL_ACTIVE_UNIFORMS, &numOfUniforms);
for (GLint i = 0; i < numOfUniforms; ++i)
{
buffer.resize_fit(MAX_UNIFORM_NAME_LENGTH + 1);
glGetActiveUniform(_program, i, static_cast<GLint>(buffer.size()), &nameLen, &uniform.count, &uniform.type,
buffer.data());
std::string_view uniformName{buffer.data(), static_cast<size_t>(nameLen)};
// ax::print("--------- uniform fullName: %s", uniformName.data());
auto it = uniformIndexMap.find(i);
if (it != uniformIndexMap.end())
{ // member of uniform block
// trim name vs_ub.xxx[0] --> xxx
auto bracket = uniformName.find_last_of('[');
if (bracket != std::string_view::npos)
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{
buffer[bracket] = '\0';
uniformName = uniformName.substr(0, bracket);
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}
auto dot = uniformName.find_last_of('.');
if (dot != std::string::npos)
uniformName.remove_prefix(dot + 1); // trim uniformName
uniform.location = it->second.first;
uniform.bufferOffset = it->second.second;
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}
else
{// must be samper: sampler2D or samplerCube
assert(uniform.type == GL_SAMPLER_2D || uniform.type == GL_SAMPLER_CUBE);
uniform.location = glGetUniformLocation(_program, uniformName.data());
uniform.bufferOffset = 0;
}
uniform.size = UtilsGL::getGLDataTypeSize(uniform.type);
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_activeUniformInfos[uniformName] = uniform;
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_maxLocation = _maxLocation <= uniform.location ? (uniform.location + 1) : _maxLocation;
}
}
void ProgramGL::bindUniformBuffers(const char* buffer, size_t bufferSize)
{
for (GLuint blockIdx = 0; blockIdx < static_cast<GLuint>(_uniformBuffers.size()); ++blockIdx)
{
auto& desc = _uniformBuffers[blockIdx];
desc._ubo->updateData(buffer + desc._location, desc._size);
__gl->bindUniformBufferBase(blockIdx, desc._ubo->getHandler());
}
CHECK_GL_ERROR_DEBUG();
}
void ProgramGL::clearUniformBuffers()
{
if (_uniformBuffers.empty())
return;
for (auto& desc : _uniformBuffers)
delete desc._ubo;
_uniformBuffers.clear();
}
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int ProgramGL::getAttributeLocation(Attribute name) const
{
return _builtinAttributeLocation[name];
}
int ProgramGL::getAttributeLocation(std::string_view name) const
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{
return glGetAttribLocation(_program, name.data());
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}
inline std::string_view mapLocationEnumToUBO(backend::Uniform name)
{
switch (name)
{
case Uniform::MVP_MATRIX:
return UNIFORM_NAME_MVP_MATRIX;
break;
case Uniform::TEXTURE:
return UNIFORM_NAME_TEXTURE;
break;
case Uniform::TEXTURE1:
return UNIFORM_NAME_TEXTURE1;
break;
case Uniform::TEXTURE2:
return UNIFORM_NAME_TEXTURE2;
break;
case Uniform::TEXTURE3:
return UNIFORM_NAME_TEXTURE3;
break;
case Uniform::TEXT_COLOR:
return UNIFORM_NAME_TEXT_COLOR;
break;
case Uniform::EFFECT_COLOR:
return UNIFORM_NAME_EFFECT_COLOR;
break;
case Uniform::EFFECT_TYPE:
return UNIFORM_NAME_EFFECT_TYPE;
break;
}
return ""sv;
}
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UniformLocation ProgramGL::getUniformLocation(backend::Uniform name) const
{
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return _builtinUniformLocation[name];
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}
UniformLocation ProgramGL::getUniformLocation(std::string_view uniform) const
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{
UniformLocation uniformLocation;
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if (_activeUniformInfos.find(uniform) != _activeUniformInfos.end())
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{
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const auto& uniformInfo = _activeUniformInfos.at(uniform);
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#if AX_ENABLE_CACHE_TEXTURE_DATA
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uniformLocation.location[0] = _mapToOriginalLocation.at(uniformInfo.location);
#else
uniformLocation.location[0] = uniformInfo.location;
#endif
uniformLocation.location[1] = uniformInfo.bufferOffset;
}
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return uniformLocation;
}
int ProgramGL::getMaxVertexLocation() const
{
return _maxLocation;
}
int ProgramGL::getMaxFragmentLocation() const
{
return _maxLocation;
}
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#if AX_ENABLE_CACHE_TEXTURE_DATA
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int ProgramGL::getMappedLocation(int location) const
{
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if (_mapToCurrentActiveLocation.find(location) != _mapToCurrentActiveLocation.end())
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return _mapToCurrentActiveLocation.at(location);
else
return -1;
}
int ProgramGL::getOriginalLocation(int location) const
{
if (_mapToOriginalLocation.find(location) != _mapToOriginalLocation.end())
return _mapToOriginalLocation.at(location);
else
return -1;
}
#endif
const UniformInfo& ProgramGL::getActiveUniformInfo(ShaderStage stage, int location) const
{
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static const UniformInfo s_emptyInfo{};
return s_emptyInfo;
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}
const hlookup::string_map<UniformInfo>& ProgramGL::getAllActiveUniformInfo(ShaderStage stage) const
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{
return _activeUniformInfos;
}
std::size_t ProgramGL::getUniformBufferSize(ShaderStage stage) const
{
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return _totalBufferSize;
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}
NS_AX_BACKEND_END